Kyle S. Brinkman
Kyle S. Brinkman
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Enhancing grain boundary ionic conductivity in mixed ionic–electronic conductors
Y Lin, S Fang, D Su, KS Brinkman, F Chen
Nature communications 6 (1), 6824, 2015
recent progress in low-temperature proton-conducting ceramics
Y Meng, J Gao, Z Zhao, J Amoroso, J Tong, KS Brinkman
Journal of Materials Science 54, 9291-9312, 2019
Broad-band dielectric response of PbMg1/3Nb2/3O3 relaxor ferroelectrics: Single crystals, ceramics and thin films
V Bovtun, S Veljko, S Kamba, J Petzelt, S Vakhrushev, Y Yakymenko, ...
Journal of the European Ceramic Society 26 (14), 2867-2875, 2006
Synthesis and characterization of BaIn0. 3− xYxCe0. 7O3− δ (x= 0, 0.1, 0.2, 0.3) proton conductors
F Zhao, Q Liu, S Wang, K Brinkman, F Chen
international journal of hydrogen energy 35 (9), 4258-4263, 2010
Soft and central mode behaviour in PbMg1/3Nb2/3O3 relaxor ferroelectric
S Kamba, M Kempa, V Bovtun, J Petzelt, K Brinkman, N Setter
Journal of Physics: Condensed Matter 17 (25), 3965, 2005
Hierarchical materials as tailored nuclear waste forms: a perspective
HC zur Loye, T Besmann, J Amoroso, K Brinkman, A Grandjean, ...
Chemistry of Materials 30 (14), 4475-4488, 2018
Multimodal hard x-ray imaging with resolution approaching 10 nm for studies in material science
H Yan, N Bouet, J Zhou, X Huang, E Nazaretski, W Xu, AP Cocco, ...
Nano Futures 2 (1), 011001, 2018
Ga-substituted Li7La3Zr2O12: An investigation based on grain coarsening in garnet-type lithium ion conductors
C Li, Y Liu, J He, KS Brinkman
Journal of Alloys and Compounds 695, 3744-3752, 2017
A study of gadolinia-doped ceria electrolyte by electrochemical impedance spectroscopy
L Zhang, F Liu, K Brinkman, KL Reifsnider, AV Virkar
Journal of Power Sources 247, 947-960, 2014
Thermodynamics and electronic properties of heterometallic multinuclear actinide-containing metal–organic frameworks with “Structural Memory”
OA Ejegbavwo, CR Martin, OA Olorunfemi, GA Leith, RT Ly, AM Rice, ...
Journal of the American Chemical Society 141 (29), 11628-11640, 2019
Melt processed single phase hollandite waste forms for nuclear waste immobilization: Ba1. 0Cs0. 3A2. 3Ti5. 7O16; A= Cr, Fe, Al
J Amoroso, J Marra, SD Conradson, M Tang, K Brinkman
Journal of alloys and compounds 584, 590-599, 2014
Roadmap for Sustainable Mixed Ionic‐Electronic Conducting Membranes
G Chen, A Feldhoff, A Weidenkaff, C Li, S Liu, X Zhu, J Sunarso, K Huang, ...
Advanced Functional Materials 32 (6), 2105702, 2022
The oxygen permeation characteristics of Bi1− xSrxFeO3 mixed ionic and electronic conducting ceramics
K Brinkman, T Iijima, H Takamura
Solid State Ionics 181 (1-2), 53-58, 2010
Melt processed multiphase ceramic waste forms for nuclear waste immobilization
J Amoroso, JC Marra, M Tang, Y Lin, F Chen, D Su, KS Brinkman
Journal of Nuclear Materials 454 (1-3), 12-21, 2014
Single phase melt processed powellite (Ba, Ca) MoO4 for the immobilization of Mo-rich nuclear waste
K Brinkman, K Fox, J Marra, J Reppert, J Crum, M Tang
Journal of Alloys and Compounds 551, 136-142, 2013
Novel twin-perovskite nanocomposite of Ba–Ce–Fe–Co–O as a promising triple conducting cathode material for protonic ceramic fuel cells
Z Zhao, J Cui, M Zou, S Mu, H Huang, Y Meng, K He, KS Brinkman, ...
Journal of Power Sources 450, 227609, 2020
Enhanced Oxygen Reduction Activity on Ruddlesden–Popper Phase Decorated La0.8Sr0.2FeO3−δ 3D Heterostructured Cathode for Solid Oxide Fuel Cells
T Hong, M Zhao, K Brinkman, F Chen, C Xia
ACS Applied Materials & Interfaces 9 (10), 8659-8668, 2017
Novel Chemically Stable Ba3Ca1.18Nb1.82–xYxO9−δ Proton Conductor: Improved Proton Conductivity through Tailored Cation Ordering
S Wang, Y Chen, S Fang, L Zhang, M Tang, K An, KS Brinkman, F Chen
Chemistry of Materials 26 (6), 2021-2029, 2014
A-site compositional effects in Ga-doped hollandite materials of the form BaxCsyGa2x+yTi8−2x−yO16: implications for Cs immobilization in crystalline ceramic …
Y Xu, Y Wen, R Grote, J Amoroso, L Shuller Nickles, KS Brinkman
Scientific reports 6 (1), 27412, 2016
Layered perovskite PrBa0. 5Sr0. 5Co2O5+ δ as high performance cathode for solid oxide fuel cells using oxide proton-conducting electrolyte
F Zhao, S Wang, K Brinkman, F Chen
Journal of Power Sources 195 (17), 5468-5473, 2010
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